CN111324248A

CN111324248A - Terminal control method, terminal control device, terminal, computer equipment and storage medium

Info

Publication number: CN111324248A
Application number: CN202010070564.8A
Authority: CN
Inventors: 赵宁; 许仁; 周枫; 王伟
Original assignee: VDL Industry Shenzhen Co Ltd
Current assignee: VDL Industry Shenzhen Co Ltd
Priority date: 2020-01-21
Filing date: 2020-01-21
Publication date: 2020-06-23

Abstract

The application relates to a terminal control method, a device, a terminal, computer equipment and a storage medium, wherein the method comprises the following steps: the method comprises the steps of obtaining interactive interfaces of at least two controlled terminals, carrying out split screen display processing on each interactive interface, responding to touch operation of a user on the interface subjected to split screen display processing to obtain touch operation data, determining the corresponding controlled terminal according to the touch operation data, sending the touch operation data to the corresponding controlled terminal, obtaining a touch response interface of the corresponding controlled terminal, and displaying the touch response interface corresponding to a split screen area. The application also provides a terminal control method, a device, a terminal, computer equipment and a storage medium. According to the scheme, the controlled terminal does not need to be carried, a user only needs to operate on the interactive interface of the control terminal, remote screen splitting control over the controlled terminals can be achieved, and convenience is improved.

Description

Terminal control method, terminal control device, terminal, computer equipment and storage medium

Technical Field

The present application relates to the field of communications technologies, and in particular, to a terminal control method, an apparatus, a terminal, a computer device, and a storage medium.

Background

With the rapid development of computer technology, portability of mobile terminals in communication systems has become a necessary trend. In addition to realizing complex and various functions, mobile terminals such as mobile phones and notebook computers need to reduce the weight and volume of each functional module as much as possible to meet the portability requirements of people on the mobile terminals.

At present, in order to improve the portability of a mobile terminal, there are ways that the mobile terminal uses a highly integrated processor chip to replace a complex circuit structure, and there are also ways that the thickness of a body of the mobile terminal such as a smart phone is reduced, and an ultra-thin body is pursued.

The method has a limited effect of improving the complexity of the terminal, and currently, people still need to carry the main body when actually operating on a human-computer interface in pursuing the use effect of human-computer interaction, and communication terminal equipment always faces the problem of low convenience caused by inconvenient carrying in the development process.

Disclosure of Invention

In view of the above, it is desirable to provide a terminal control method, apparatus, terminal, computer device, and storage medium capable of improving convenience in view of the above technical problems.

A terminal control method comprises the following steps:

acquiring interactive interfaces of at least two controlled terminals, and performing split-screen display processing on each interactive interface;

responding to the touch operation of the user on the interface after the split-screen display processing to obtain touch operation data;

determining a corresponding controlled terminal according to the touch operation data, and sending the touch operation data to the corresponding controlled terminal;

and acquiring a touch response interface of the corresponding controlled terminal, and displaying the touch response interface corresponding to the corresponding split screen area, wherein the touch response interface is obtained after touch response is carried out on the basis of the controlled terminal according to the touch operation data.

In one embodiment, the split-screen display processing of each interactive interface includes:

acquiring the number of connected controlled terminals and the identity identification information of each controlled terminal;

determining the number of split screen areas according to the number of connected controlled terminals;

dividing the screen into screen division areas corresponding to the number of the screen division areas;

and displaying each interactive interface in each split screen area according to the identity identification information of each controlled terminal.

In one embodiment, before acquiring the interactive interfaces of the at least two controlled terminals, the method further includes:

sending a connection request to at least two controlled terminals, wherein the connection request carries identity authentication information;

and receiving the connection permission information fed back by each controlled terminal according to the identity authentication information, and establishing connection with each controlled terminal.

In one embodiment, the touch operation data includes touch coordinates;

according to the touch operation data, determining the corresponding controlled terminal comprises:

determining a split screen area touched by a user according to the touch coordinate;

and determining a corresponding controlled terminal according to the split screen area.

In one embodiment, the acquiring the interactive interfaces of the at least two controlled terminals includes:

acquiring program operation window data of at least two controlled terminals;

processing the data of each program operation window to obtain a plurality of interactive interface configuration data;

and configuring the corresponding interactive interface according to the configuration data of each interactive interface.

In one embodiment, the obtaining of the touch response interface of the corresponding controlled terminal includes:

acquiring target program operation window data displayed after the corresponding controlled terminal responds to the touch operation data;

processing the target program operation window data to obtain touch response interface configuration data;

and configuring the touch response interface according to the touch response interface configuration data.

In one embodiment, the displayed interactive interface and the displayed touch response interface are matched with the size of the corresponding split screen area.

A terminal control apparatus, the apparatus comprising:

the first split screen display module is used for acquiring the interactive interfaces of at least two controlled terminals and performing split screen display processing on each interactive interface;

the touch operation data receiving module is used for responding to the touch operation of the user on the interface after the split-screen display processing to obtain touch operation data; (ii) a

The control module is used for determining a corresponding controlled terminal according to the touch operation data and sending the touch operation data to the corresponding controlled terminal;

and the second split screen display module is used for acquiring a touch response interface of the corresponding controlled terminal and displaying the touch response interface in the corresponding split screen area, and the touch response interface is obtained after touch response is performed on the basis of the controlled terminal according to the touch operation data.

A terminal, comprising: the touch display device comprises a communication module, a touch display module and a processor;

the communication module is connected with at least two controlled terminals, the processor acquires an interactive interface of each controlled terminal and performs display split-screen processing on each interactive interface to acquire split-screen display interface configuration data, the split-screen display interface configuration data are sent to the touch display module, the touch display module receives the split-screen display interface configuration data, displays the interactive interface in a corresponding split-screen area, receives touch operation of a user on the interactive interface after split-screen display to acquire touch operation data and sends the touch operation data to the processor, the processor determines the corresponding controlled terminal according to the touch operation data and sends the touch operation data to the corresponding controlled terminal, acquires touch program operating window data of the corresponding controlled terminal, processes the touch program operating window data to acquire touch response interface configuration data and sends the touch response interface configuration data to the touch display module, and the touch control display module displays the touch control response interface corresponding to the split screen area according to the touch control response interface configuration data, wherein the touch control response interface is obtained after touch control response is carried out on the basis of the controlled terminal according to the touch control operation data.

According to the terminal control method, the device, the terminal, the computer equipment and the storage medium, the control terminal is connected with the controlled terminals, the control terminal acquires the interactive interface of each controlled terminal and performs split-screen display processing on each interactive interface, so that the screen data of the controlled terminals can be comprehensively displayed on one control terminal, the touch operation data of a user on the interactive interface after split-screen display is responded, and then the touch operation data is sent to the corresponding controlled terminal, so that the touch response interface after the controlled terminal performs touch response according to touch operation is acquired, the user operates on the interactive interface of the control terminal, and the split-screen control of the controlled terminals can be remotely realized. According to the scheme, the controlled terminal does not need to be carried, the interaction between the control terminal and the controlled terminals replaces the direct operation of the control terminal, the storage space of the control terminal is reduced, and the convenience is improved.

A terminal control method comprises the following steps:

acquiring interactive interfaces of at least two controlled terminals through a control center, and performing split-screen display processing on each interactive interface, wherein the control center has access operation authority of each controlled terminal;

responding to touch operation of a user on an interface displayed in a split screen mode to obtain touch operation data, wherein the touch operation data carries identity identification information of each controlled terminal;

the touch operation data are sent to a control center, and the control center is used for controlling the corresponding controlled terminal to perform touch response according to the touch operation data;

and acquiring a touch response interface of the corresponding controlled terminal through the control center, and displaying the touch response interface corresponding to the corresponding split screen area, wherein the touch response interface is obtained after touch response is carried out on the basis of the controlled terminal according to the touch operation data.

acquiring the number of connected controlled terminals and the identity identification information of each controlled terminal through a control center;

and displaying each interactive interface in the corresponding split screen area according to the identity identification information of each controlled terminal.

In one embodiment, before the obtaining of the interactive interfaces of the at least two controlled terminals through the control center, the method further includes:

sending a connection request to a control center, wherein the connection request carries identity authentication information;

and receiving the connection permission message forwarded by the control center, wherein the connection permission message is sent after the controlled terminal completes identity authentication or pairing authentication according to the identity authentication information.

In one embodiment, the obtaining of the interactive interfaces of the at least two controlled terminals through the control center includes:

acquiring program operation window data of at least two controlled terminals through a control center;

and configuring the interactive interface of the controlled terminal according to the configuration data of each interactive interface.

In one embodiment, the obtaining, by the control center, the touch response interface of each controlled terminal includes:

acquiring touch program operation window data displayed after the corresponding controlled terminal responds to the touch operation data through the control center;

processing the touch program operation window data to obtain touch response interface configuration data;

A terminal control apparatus, the apparatus comprising:

the first processing module is used for acquiring interactive interfaces of at least two controlled terminals through the control center and performing split-screen display processing on each interactive interface, and the control center has access operation authority of each controlled terminal;

the touch operation response module is used for responding to the touch operation of the user on the interface after the split screen display to obtain touch operation data, and the touch operation data carries the identity identification information of each controlled terminal;

the data control module is used for sending the touch operation data to the control center, and the control center is used for controlling the corresponding controlled terminal to perform touch response according to the touch operation data;

and the second processing module is used for acquiring a touch response interface of the corresponding controlled terminal through the control center, displaying the touch response interface in the corresponding split screen area, and obtaining the touch response interface after performing touch response according to the touch operation data based on the controlled terminal.

A computer device comprising a memory storing a computer program and a processor implementing the steps in the above terminal control method when executing the computer program.

A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the above-mentioned terminal control method.

According to the terminal control method, the device, the computer equipment and the storage medium, the control center is used for establishing connection between the control terminal and the controlled terminals, the control center is used for acquiring the interactive interface of each controlled terminal, the screen division display processing is carried out on each interactive interface, so that the screen data of the controlled terminals can be comprehensively displayed on one control terminal, the touch operation data of a user on the interactive interface after screen division display is responded, the touch operation data is sent to the control center, the control center is used for controlling the corresponding controlled terminal, the control center is used for acquiring the touch response interface of the controlled terminal, the connection with the controlled terminal is not required to be directly established, and the user can remotely realize screen division control on the controlled terminals through the control terminal. According to the scheme, the controlled terminal does not need to be carried or the connection with the controlled terminal does not need to be established, the interaction between the control terminal and the control center replaces the direct operation of the control terminal, the complex data processing process executed at the control terminal is avoided, the storage space of the control terminal is reduced, and the convenience is improved.

Drawings

Fig. 1 is an application environment diagram of a terminal control method in one embodiment;

fig. 2 is a flowchart illustrating a terminal control method according to an embodiment;

FIG. 3 is a diagram illustrating a split-screen display performed by the control terminal according to an embodiment;

fig. 4 is a detailed flowchart of a terminal control method in another embodiment;

FIG. 5 is a flowchart illustrating the processing steps of the split-screen display in one embodiment;

fig. 6 is an application environment diagram of a terminal control method in another embodiment;

fig. 7 is a flowchart illustrating a terminal control method in another embodiment;

FIG. 8 is a software architecture diagram of a terminal control method in one embodiment;

fig. 9 is a detailed flowchart of a terminal control method in another embodiment;

fig. 10 is a block diagram of a terminal in one embodiment;

fig. 11 is a detailed configuration block diagram of a terminal in another embodiment;

FIG. 12 is a block diagram showing the configuration of a terminal control device in one embodiment;

fig. 13 is a block diagram showing the configuration of a terminal control apparatus in another embodiment;

fig. 14 is a block diagram showing the construction of a terminal control apparatus in another embodiment;

fig. 15 is a block diagram showing the configuration of a terminal control apparatus in another embodiment;

FIG. 16 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The terminal control method provided by the application can be applied to the application environment shown in fig. 1. In the application environment, a control terminal 202 and a controlled terminal 204 are included. The control terminal 202 has touch and display functions. The touch control function is that a user controls an operation interface by touching or writing with a writing pen on a touch screen, the display function comprises a display operation interface and a touch control response interface, and the touch control response interface is an interface for displaying corresponding touch control response after touch control operation. The controlled terminal 204 is a terminal controlled by the control terminal 202, the controlled terminal 204 is in a plurality of numbers, the controlled terminal 204 is in wireless communication with the control terminal 202, the controlled terminal 204 transmits an operation interface to the control terminal 202 through a wireless link, and makes a touch response to the touch operation of the control terminal 202, and transmits the touch response interface to the control terminal 202 through the wireless link. The control terminal 202 and the controlled terminal 204 may be, but are not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices.

In one embodiment, as shown in fig. 2, a terminal control method is provided, which is described by taking the method as an example applied to the control terminal 202 in fig. 1, and includes the following steps:

and S200, acquiring interactive interfaces of at least two controlled terminals, and performing split-screen display processing on each interactive interface.

In practical applications, a remote control system or a remote operation application program is preset in both the control terminal 202 and the controlled terminal 204, and the control of the controlled terminal can be realized through the operation system/application program. The control terminal 202 and the controlled terminal 204 may establish a connection through a Wireless communication mode such as 3G, 4G, 2.4G, 5G, Wi-Fi (Wireless Fidelity) communication or bluetooth communication.

The interactive Interface is an operation Interface displayed on the controlled terminal 204, or a background Interface similar to a computer "security mode" is entered by the controlled terminal 204 after the controlled terminal 204 authorizes the remote operation of the control terminal 202 and runs a corresponding remote operation process, further, the background Interface is not displayed on the current Interface of the controlled terminal 204, so that a User of the controlled terminal 204 can autonomously operate without being affected when the controlled terminal 204 is remotely controlled by the controlled terminal 202.

The split-screen display processing refers to dividing a screen of the control terminal into a plurality of split-screen areas by using a split-screen technology, displaying an acquired interactive interface of the controlled terminal in the corresponding split-screen area to enable the screen of the controlled terminal to be comprehensively viewed through the screen of the control terminal, in the specific implementation, the split-screen display processing may be to acquire a screenshot of an operating interface of each controlled terminal as an interactive interface (regarded as a first interactive interface), acquire data of screen UI (user interface) data, screen size, resolution and the like of the interactive interface intercepted by the controlled terminal, perform equal-scale zooming or rendering on the interactive interface based on the data in combination with the screen resolution of the controlled terminal, acquire a second interactive interface, display the second interactive interface in the corresponding split-screen area, specifically, the schematic diagram displayed in the split-screen mode may refer to FIG. 3. more specifically, when the resolution of the interface of the control terminal 202 is not equal-scale to the resolution of the first interactive interface, the first interactive interface may be first scaled down or filled into equal-scale zooming first interactive interface, and then the second interactive interface may be displayed in a corresponding zoom mode such as a zoom mode that the first interactive interface corresponding to a zoom interface corresponding to a 1024, if the first interactive interface is directly displayed in a corresponding split-screen, the interactive interface corresponding interactive interface, the interactive interface corresponding interactive interface may be displayed in a zoom interface corresponding interactive interface 1024, may be displayed in a zoom control terminal 1024, or zoom interface corresponding interactive interface 1024, may be displayed in a zoom interface corresponding interactive interface corresponding to a zoom interface corresponding interactive interface 1024, may be displayed in a zoom interface corresponding to a zoom interface corresponding interactive interface corresponding to a zoom control terminal, or corresponding interactive interface corresponding to a zoom interface corresponding interactive interface corresponding to a zoom control terminal, may be displayed in a zoom interface corresponding to a zoom interface corresponding interactive interface.

And S400, responding to the touch operation of the user on the interface after the split-screen display processing to obtain touch operation data.

The touch operation is the operation of controlling the operation interface by the user through touch or writing on the second interactive interface after the split screen display. In specific implementation, a user may click a software icon on the second interactive interface through a finger or a writing pen to open the software, click each control in the software after the software is opened, or perform a touch operation by writing in an operation interface after the software is opened, where the touch operation may include clicking, long-time pressing, sliding, zooming, multi-point touch, and the like. For example, a WeChat icon is located at the second interactive interface at coordinates (1600,600) pixel, and the user can click on the WeChat icon, click on various controls in the open WeChat, or enter text in a WeChat dialog box. After the touch operation is performed, the control terminal 202 receives the touch operation, and records coordinates of a touch point of a user, touch duration, touch pressure information, and the like to obtain touch operation data.

In addition, a user may touch a plurality of split screen areas during one touch operation in the touch operation process, for example, if a large sliding operation is performed and the action position of the user involves a plurality of split screens, the user may perform the following two methods: first, it can be preset in the control terminal 202 that one touch operation can only control one split screen at the same time, and when there are multiple screen operations, the split screen on which the touch action acts earliest can be selected, and the split screen is taken as the split screen to be operated, and the other split screens are not processed; if the second control terminal 202 is not limited, all related split screens may be used as the action objects of the touch operation, and the processing may be performed sequentially according to the touch time.

Step S600, according to the touch operation data, determining a corresponding controlled terminal and sending the touch operation data to the corresponding controlled terminal.

In a specific implementation, after the control terminal 202 obtains the touch operation data, the control terminal may detect a specific split screen area acted by a user according to touch coordinates in the touch operation data, and determine the controlled terminal 204 operated by the user according to the split screen area, then, the touch operation data may be processed according to a ratio of the first interactive interface to the second interactive interface, and the processed touch operation data is sent to the corresponding controlled terminal 204, so that the controlled terminal 204 performs a touch response according to the processed touch data, where the touch response includes information such as screen UI data and sound after the response.

And step S800, acquiring a touch response interface of the corresponding controlled terminal, and displaying the touch response interface corresponding to the split screen area, wherein the touch response interface is obtained after touch response is performed on the basis of the controlled terminal according to the touch operation data.

For example, for the controlled terminal 204, a screen capture operation can be performed on the entire touch response interface of the controlled terminal 204, and a screen capture result is used as a first touch response interface, or touch response interface information of the controlled terminal 204 is read, including resolution 2048 × 1536 pixels, text content and position displayed by the touch response, displayed image color and position by the touch response, and the like, and the first touch response interface is obtained according to the touch response interface information, after the first touch response interface is obtained, a second touch response interface is obtained by scaling the first touch response interface according to the resolution of the control terminal 202, and the second touch response interface is obtained by scaling the second touch response interface according to the resolution of the control terminal 202, and then the second touch response interface is obtained by scaling the first touch response interface according to the resolution of the control terminal 202, and if the second touch response interface is obtained by the controlled terminal 202, the size of the second touch response interface is adjusted according to the resolution of the first touch response interface, and the size of the second touch response interface is adjusted according to the size of the first touch response interface, and the size of the second touch response interface is obtained by the second touch response interface, and the size of the second touch response interface is adjusted according to the size of the second touch response interface, and the size of the second touch response interface, if the size of the second touch response interface is obtained by the touch response interface, the size of the touch response interface is adjusted by the touch response interface, and the size of the touch response interface, and the touch response interface is adjusted to the touch response interface, and the size of the touch response interface, and the size of the touch response interface is adjusted to the size of the touch response interface, and the size of the touch response interface is adjusted to the size of the touch response interface.

According to the terminal control method, the control terminal is connected with the controlled terminals, the control terminal acquires the interactive interfaces of the controlled terminals, and performs split-screen display processing on the interactive interfaces, so that screen data of the controlled terminals can be comprehensively displayed on one control terminal, and further, touch operation data of a user on the interactive interfaces after split-screen display is responded, and then the touch operation data is sent to the corresponding controlled terminals, so that touch response interfaces after touch response is performed by the controlled terminals according to touch operation are acquired, the user operates on the interactive interfaces of the control terminals, and the split-screen control of the controlled terminals can be remotely realized. According to the scheme, the controlled terminal does not need to be carried, the interaction between the control terminal and the controlled terminals replaces the direct operation of the control terminal, the storage space of the control terminal is reduced, and the convenience is improved.

In one embodiment, as shown in fig. 4, before acquiring the interactive interfaces of the at least two controlled terminals, the method further includes: step S100, sending a connection request to at least two controlled terminals, wherein the connection request carries identity authentication information, receiving a connection permission message fed back by each controlled terminal according to the identity authentication information, and establishing connection with each controlled terminal.

In specific implementation, the process of establishing the connection between the control terminal 202 and the controlled terminal 204 may be: the control terminal 202 can select a specific controlled terminal that needs to be connected, for example, a smart device such as a mobile phone, a computer, and a smart band. The intelligent device may be an intelligent device in a history that the control terminal 202 has been connected or remotely controlled before, or may be a new terminal device.

In practical application, the control terminal 202 may be powered on to enter a display interface, a user opens a history connection device record, and selects a specific controlled terminal to be connected to connect, or searches a currently connectable controlled terminal, and then selects a specific controlled terminal to be connected to connect through touch operation, at this time, the control terminal 202 responds to the touch operation of the user, and sends a connection request carrying identity authentication information thereof to the controlled terminal 204, the controlled terminal 204 receives the request, reads the identity authentication information in the request, and performs identity authentication or pairing authentication based on the identity authentication information, and if the authentication is passed, sends a connection permission message to the control terminal 202 to establish connection with the control terminal 202. Specifically, the verification method includes, but is not limited to, character string password verification, fingerprint verification, face verification, iris verification, or the like. After receiving the correct authentication information, the controlled terminal 204 may automatically send the interactive interface to the control terminal 202 without the user clicking to confirm.

Further, the controlled terminal 204 may also set the control authority of the control terminal 202, and for some operations related to privacy sensitivity or importance, the control terminal 202 needs to be authenticated again, or different access authorities are needed to be accessible. Specifically, the connection with the controlled terminal can be established through 3G, 4G, 5G, 2.4G, Wi-Fi, Bluetooth or a custom wireless protocol. In a specific implementation, the communication distance between the control terminal 202 and the controlled terminal 204 is within a Wi-Fi or bluetooth communication range, and the two realize data transmission through Wi-Fi, bluetooth or a custom wireless protocol. Due to the fact that a general platform such as Wi-Fi or Bluetooth is used or a user-defined wireless protocol is used, a completely open operating environment can be kept, any controlled terminal is allowed to develop application software at any time, and increasingly complex and diversified functional requirements of communication products can be met. In this embodiment, the connection is allowed to be established only after the controlled terminal is authenticated, so that the standardization and the security of the remote operation can be ensured.

In one embodiment, the acquiring the interactive interfaces of the at least two controlled terminals includes: acquiring program operation window data of at least two controlled terminals, processing the program operation window data to obtain a plurality of interactive interface configuration data, and configuring corresponding interactive interfaces according to the interactive interface configuration data.

In a specific implementation, the acquisition of the interactive interface may be to acquire screenshot data of a touch response interface sent by the controlled terminal 204, or may be to acquire program running window data of the controlled terminal 204, that is, page information of an operation interface (window) of an application currently displayed or running in the background by the controlled terminal 204, including various attribute information and configuration data of the page, screen UI data, screen size, resolution, and the like, by the control terminal 202. Then, according to the size of the split screen area, the program operation window data is zoomed, intercepted or filled to obtain the interactive interface configuration data, the corresponding interactive interface is configured according to the interactive interface configuration data, and the interactive interface is displayed corresponding to the split screen area. In this embodiment, the interactive interface of the controlled terminal 204 may be page configuration data other than the screen capture data, and the corresponding interactive interface of the controlled terminal 204 can be accurately configured and displayed.

In one embodiment, as shown in fig. 5, the performing of the split-screen display processing on each interactive interface includes:

step S120, acquiring the number of connected controlled terminals and the identity information of each controlled terminal;

step S140, determining the number of split screen areas according to the number of connected controlled terminals;

and step S160, dividing the screen into screen splitting areas corresponding to the screen splitting areas in number, and displaying each interactive interface in each screen splitting area according to the identity identification information of each controlled terminal.

In practical application, to ensure the accuracy of split screen display, the split screen display processing of the interactive interface may be performed by, after connection is established with a plurality of controlled terminals 204, or after a user selects a controlled terminal 204 to be connected, acquiring the number of the controlled terminals 204 and identification information (including device numbers, Media access control addresses, and other information capable of uniquely identifying the controlled terminal) which are connected with the user, then determining the number of split screen areas according to the number of the connected controlled terminals, dividing the screen into split screen areas corresponding to the number of the split screen areas, for example, when 2,3, or 4 controlled terminals are connected, dividing the screen into 1 ×, 1 ×,2 × 2, after the split screen of the screen is completed, displaying each interactive interface in the corresponding split screen area according to the identification information of each controlled terminal 204, specifically, presetting the corresponding relationship between the identification and the split screen areas, for example, presetting the corresponding relationship between the identification and the split screen areas, such as coordinate (e.g., 1) of the corresponding area, which controlled terminal area corresponds to the terminal (e.g., coordinate (0) -2), and the corresponding area of each controlled terminal, and the corresponding area can be accurately allocated to the controlled terminal, and the corresponding screen area, and the controlled terminal, and the corresponding area of the controlled terminal, and the corresponding area can be accurately allocated to the controlled terminal, and the corresponding area, and the controlled terminal area, and the interaction area corresponding area of the interaction area, and the interaction area can be accurately allocated to the controlled terminal area, and the interaction area, and the terminal area, and the interaction area can be accurately allocated to the interaction area, and the terminal area.

In one embodiment, the obtaining of the touch response interface of the corresponding controlled terminal includes: and acquiring target program operation window data displayed after the corresponding controlled terminal responds to the touch operation data, processing the target program operation window data to obtain touch response interface configuration data, and configuring a touch response interface according to the touch response interface configuration data.

After the controlled terminal 204 receives the touch operation data to perform the touch response, a touch response interface may be correspondingly generated and sent to the control terminal 202, specifically, screenshot data of the touch response interface may be sent, or program execution window data of the touch response interface, that is, page information of the operation interface currently displayed by the controlled terminal 204, including various attribute information and configuration data of the page, screen UI data, screen size, resolution, and the like, may also be sent. And then, according to the size of the split screen area, carrying out processing such as zooming, intercepting or filling on the program operation window data to obtain touch response interface configuration data, configuring a corresponding touch response interface according to the touch response interface configuration data, and then displaying the touch response interface corresponding to the split screen area. In this embodiment, the touch response interface of the controlled terminal 204 may be page configuration data other than the screen capture data, and the touch response interface of the controlled terminal 204 can be accurately configured and displayed.

In specific implementation, each split screen area (split screen interface) correspondingly displays an interactive interface and a touch response interface of the controlled terminal 204. For example, there are 3 controlled terminals connected to the control terminal 202, which are respectively a controlled terminal a, a controlled terminal B, and a controlled terminal C, and the control terminal also has 3 split screen interfaces, which are respectively a split screen a, a split screen B, and a split screen B, where the interactive interface a displayed on the split screen a is an interface obtained by rendering the initial interactive interface of the controlled terminal a, and the interface is matched with the size of the split screen area, the interactive interface B displayed on the split screen B is an interface obtained by rendering the initial interactive interface of the controlled terminal B, and the interface is matched with the size of the split screen area, and the interactive interface C displayed on the split screen C is an interface obtained by rendering the initial interactive interface of the controlled terminal C, and the interface is matched with the size of the split screen area. Specifically, the rendered action may be performed by the controlled terminal or the control terminal. In the embodiment, the interface is rendered into the interface matched with the size of the split screen area, so that the interface data can be more reasonably displayed, and the use feeling of a user is improved.

The present application provides another terminal control method, which can be applied to the application environment as shown in fig. 6. In the application environment, a control terminal 602, a control center 604 and a controlled terminal 606 are included. The number of the controlled terminals 606 is multiple, the control center 604 is used for data forwarding between the control terminal 602 and the controlled terminals 606, the control center 604 may be a server, a cloud (cloud computing server), a computer host, and the like, the number of the control centers 604 may also be multiple, each control center 604 operates independently, the control centers and the control centers may be independent of each other or connected to each other, in addition, each control center may also be implemented by an independent server or a server cluster formed by multiple servers, and the like.

In one embodiment, as shown in fig. 7, another terminal control method provided by the present application is described by taking a control terminal 602, which is applied in the application environment in fig. 6, as an example, and includes the following steps:

step S300, acquiring interactive interfaces of at least two controlled terminals through a control center, and performing split-screen display processing on each interactive interface;

step S500, responding to touch operation of a user on the interface after split screen display to obtain touch operation data, wherein the touch operation data carries identity identification information of each controlled terminal;

step S700, sending the touch operation data to a control center, wherein the control center is used for controlling a corresponding controlled terminal to perform touch response according to the touch operation data;

and S900, acquiring a touch response interface of the corresponding controlled terminal through the control center, and displaying the touch response interface in the corresponding split screen area, wherein the touch response interface is obtained after touch response is performed on the basis of the controlled terminal according to the touch operation data.

As can be seen from the foregoing embodiments, the terminal control method provided in this embodiment is different in that the control terminal 602 and the controlled terminal 606 do not directly establish a connection, but the control terminal 602 establishes a connection with the controlled terminal 606 through the control center 604. In specific implementation, the control center has access operation authority of each controlled terminal, at least two or more controlled terminals 606 may be connected to the control center 604 in advance, and the controlled terminals 606 may backup data in the control center 604 in advance and set the data to be in an accessible state, or the controlled terminals 606 may be in a controllable state through a remote operation application/operation system installed in advance. The control terminal 602 may send its own identity code to the control center 604, and the control center 604 establishes a connection with the control terminal 602 after receiving the identity code. The control terminal 602 acquires the interactive interfaces of at least two controlled terminals 606 through the control center 604, each interactive interface carries the identification information of the controlled terminal 606, and then performs split-screen display processing on the interactive interfaces according to the identification information, and displays each interactive interface in each split-screen area.

In specific implementation, the split-screen display processing may be that a control center obtains a screenshot of an operation interface of each controlled terminal, and uses the screenshot as an interactive interface (which is regarded as a first interactive interface), then obtains data such as screen UI data, screen size, resolution and the like of the interactive interface captured by the controlled terminal, and then performs scaling or rendering on the interactive interface in an equal proportion based on the data and the screen resolution of the controlled terminal to obtain a second interactive interface, and then displays the second interactive interface in a corresponding split-screen area. Specifically, when the resolution of the interface of the control terminal 602 is not in equal proportion to the resolution of the first interactive interface, the first interactive interface may be scaled in equal proportion, and then operations such as interception or filling are performed according to the scaling result to obtain a second interactive interface, so as to display the second interactive interface; if the resolution ratio is in equal proportion, the first interactive interface can be directly zoomed into an interface matched with the size of the split screen area to obtain a second interactive interface, and then the second interactive interface is displayed in the corresponding split screen area. Furthermore, in order to facilitate the user to intuitively view which controlled terminal corresponds to the second interactive interface displayed on which split screen region, the identity of the controlled terminal may be displayed on the split screen region, for example, a word such as "you are performing remote operation on a XXX (identity identifying information) terminal" may be displayed.

The method includes the steps that a user performs touch operation on an interactive interface after split-screen display, software such as a browser entrance and the like for receiving the touch operation of the user is preset in a control terminal 602, the control terminal 602 receives the touch operation of the user on a specific split screen, records information such as a split screen area touched by the user and identity information, touch coordinates, touch duration and touch pressure of a controlled terminal 606 corresponding to the split screen area, obtains touch operation data, processes the touch operation data and forwards the touch operation data to the controlled terminal 606 through a control center 604, wherein the touch response interface can be an interface displayed after the controlled terminal 606 performs touch response according to the received touch operation data, specifically, an image of the touch response interface of the controlled terminal 606 can be intercepted, and the image of the touch response interface can be used as a first touch response interface, or information such as resolution, color and text of the touch response interface of the controlled terminal 606 can be obtained through the control center, and the first touch response interface can be obtained according to the information such as the touch screen image of the controlled terminal 606, the resolution, the touch response interface resolution, the read terminal interface information such as touch screen resolution, the touch response interface response position information such as touch information, touch information such as touch screen display position information, touch screen display position information such as touch screen display position information 2048 × 1536, touch screen display information, touch response information.

After the first touch response interface is obtained, the first touch response interface may be scaled in an equal proportion according to the resolution of the interface of the control terminal 202 to obtain a second touch response interface. For example, when the resolutions of the interface of the control terminal 202 and the first touch response interface are not in equal proportion, the first touch response interface may be scaled in equal proportion, then operations such as interception or filling are performed according to the scaling result to obtain a second touch response interface, and then the second touch response interface is displayed; if the resolutions are in equal proportion, the first touch response interface can be directly zoomed into an interface matched with the size of the split screen area to obtain a second touch response interface, and then the second touch response interface is displayed in the corresponding split screen area. Further, the user may resize each split screen area.

Fig. 8 is a schematic software architecture diagram of a terminal control method according to an embodiment, which includes an intelligent hand board 702, a cloud computing server 704 and a tablet computer 706, where the intelligent hand board 702 is a control terminal, the cloud computing server 704 is a control center, and the tablet computer 706 is a controlled terminal. The cloud computing server 704 includes, among other things, message middleware 708, front-end services 710, back-end services 712, and a database 714.

Referring to fig. 8, software for running data such as a neighborhood screen UI and touch events on the tablet pc 706 carries private Protocol data through a TCP (Transmission Control Protocol)/IP (internet Protocol Address) via a 4G/5G network, and establishes a connection with the cloud computing server 704. In the cloud computing server 704, the message middleware 708 efficiently distributes data, and the back-end service 712 and the front-end service 710 perform bidirectional communication through a Websocket protocol. Specifically, when the cloud computing server 704 performs information transmission with the smart tablet 702 and the tablet 706, specifically, the message middleware 708 is used to communicate with the tablet 706 through a TCP/IP protocol, receive an operation interface (including an interactive interface and a touch response interface) of the tablet 706, the message middleware 708 transmits the operation interface to the backend service 712 through the TCP/IP protocol, the backend service 712 transmits the operation interface to the front-end service 710 through a Websocket protocol, the front-end service 710 performs rendering processing on the operation interface according to the resolution, the size of the manipulation interface, and the like of the smart tablet 702, so that the rendered image is adapted to the smart tablet 702, the smart tablet 702 actively obtains the rendered image from the front-end service 710 through the HTTP protocol, and the cloud computing server 704 receives touch coordinates of the tablet interface detected by the smart tablet 702 through the HTTP or Restful interface, The backend service 712 encapsulates the touch operation data, such as touch pressure and touch duration, using a TCP/IP protocol-based private protocol to perform data encapsulation through the message middleware 708, and forwards the encapsulated touch operation data to the tablet pc 706. Then, the backend service 712 sends the received touch response interface sent by the tablet computer 706 to the smart tablet 702 through the message middleware 708.

Referring to fig. 8, a description is provided below for a control terminal to display a touch response interface, where, through the cloud computing server 704, the tablet pc 706 performs touch response after receiving a wechat start operation, and obtains a wechat start interface, that is, a first touch response interface of a controlled terminal, through the cloud computing server 704, the tablet pc 706 sends the first touch response interface to the smart tablet 702, where the resolution of the first touch response interface is 2048 × 1536 pixels, if the resolution of the smart tablet 702 interface is 1024 × 768 pixels, the first touch response interface may be scaled down to the original 50% to obtain a second touch response interface, and if the resolution of the smart tablet 702 interface is 700 × 384 pixels, the first touch response interface may be scaled down to the original 50% to be displayed at the center of the smart tablet 702 interface, and then black is filled in an undisplayed portion to obtain a second touch response interface.

According to the terminal control method, the control center is used for establishing connection between the control terminal and the controlled terminals, the control center is used for obtaining the interactive interfaces of the controlled terminals, the interactive interfaces are subjected to split screen display processing, screen data of the controlled terminals can be comprehensively displayed on one control terminal, the touch operation data of a user on the interactive interfaces after split screen display is responded, the touch operation data are sent to the control center, the control center controls the corresponding controlled terminals, the control center is used for obtaining the touch response interfaces of the controlled terminals, connection with the controlled terminals is not needed to be directly established, and the user can remotely realize split screen control of the controlled terminals through the control terminal. According to the scheme, the controlled terminal does not need to be carried or the connection with the controlled terminal does not need to be established, the interaction between the control terminal and the control center replaces the direct operation of the control terminal, the complex data processing process executed at the control terminal is avoided, the storage space of the control terminal is reduced, and the convenience is improved.

In one embodiment, as shown in fig. 9, before the obtaining, by the control center, the interactive interfaces of at least two controlled terminals, the method further includes: and step S250, sending a connection request to the control center, wherein the connection request carries identity authentication information, receiving a connection permission message forwarded by the control center, and sending the connection permission message after the controlled terminal completes identity authentication or pairing authentication according to the identity authentication information.

In specific implementation, the process of establishing connection between the control terminal 602 and the controlled terminal 606 through the control center 602 may be: the control terminal 602 may select a specific controlled terminal that needs to be connected, for example, a smart device such as a mobile phone, a computer, and a smart band. The intelligent device may be an intelligent device in a history that the control terminal 602 has been connected or remotely controlled before, or may be a new terminal device.

In practical applications, the control terminal 602 may be powered on to enter the display interface, the user opens the history of the connection device, and selects a specific controlled terminal to be connected for connection, or searches for a currently connectable controlled terminal, then, a specific controlled terminal to be connected is selected for connection through touch operation, at this time, the control terminal 602 responds to the touch operation of the user, sends a connection request carrying identity authentication information of the user to the control center 604, the control center 604 receives the request, forwards the request to the controlled terminal 606, the controlled terminal 606 reads the identity authentication information in the request, and performs identity authentication or pairing authentication based on the identity authentication information, if the authentication is passed, a connection permission message is sent to the control center 604, and the control center 604 establishes a connection with the control terminal 602 according to the connection permission message and forwards the connection permission message to the control terminal 602. Specifically, the verification method includes, but is not limited to, character string password verification, fingerprint verification, face verification, iris verification, or the like. After receiving the correct authentication information, the controlled terminal 606 may automatically send the interactive interface to the control center 604 without the user clicking for confirmation.

Further, the controlled terminal 606 may also set the control authority of the controlling terminal 602, and for some operations related to privacy sensitivity or importance, the controlling terminal 602 needs to be authenticated again, or different access authority is needed to access. Specifically, the connection with the controlled terminal can be established through 3G, 4G, 5G, 2.4G, Wi-Fi, Bluetooth or a custom wireless protocol. In a specific implementation, the communication distances between the control terminal 602 and the control center 606 and between the control center 604 and the controlled terminal 606 are within a Wi-Fi or bluetooth communication range, and the two realize data transmission through Wi-Fi, bluetooth or a custom wireless protocol. Due to the fact that a general platform such as Wi-Fi or Bluetooth is used or a user-defined wireless protocol is used, a completely open operating environment can be kept, any controlled terminal is allowed to develop application software at any time, and increasingly complex and diversified functional requirements of communication products can be met. In this embodiment, the connection is allowed to be established only after the controlled terminal is authenticated, so that the standardization and the security of the remote operation can be ensured.

In one embodiment, the split-screen display processing of each interactive interface includes: the method comprises the steps of obtaining the number of connected controlled terminals and the identity identification information of each controlled terminal through a control center, determining the number of split screen areas according to the number of the connected controlled terminals, dividing a screen into split screen areas corresponding to the number of the split screen areas, and displaying each interactive interface in the corresponding split screen area according to the identity identification information of each controlled terminal.

In this embodiment, the difference between the process of performing the split-screen display processing on each interactive interface and the process of performing the split-screen display processing on each interactive interface in the terminal control method is that the communication modes are different, the control terminal 602 obtains the number of connected controlled terminals 606 and the identity information of each controlled terminal through the control center 604, and the process of performing the split-screen display processing on each interactive interface based on the number of the controlled terminals and the identity information has been described in detail in the foregoing embodiment, and is not described herein again. In the embodiment, the split-screen display of the interactive interface is completed through the number of the controlled terminals and the identity identification information, and the split-screen display can be flexibly and accurately performed according to different conditions.

In one embodiment, the obtaining of the interactive interfaces of the at least two controlled terminals through the control center includes: the method comprises the steps that program operation window data of at least two controlled terminals are obtained through a control center, the program operation window data are processed to obtain a plurality of interactive interface configuration data, and the interactive interfaces of the controlled terminals are configured according to the interactive interface configuration data.

In this embodiment, a manner in which the control terminal 602 acquires the interactive interface of the controlled terminal 606 is different from the manner in which the control terminal acquires the interactive interface in the foregoing terminal control method in that: the control center 604 obtains program running window data of at least two controlled terminals, and specifically based on the obtained program running window data, the details of configuring the interactive interface of the controlled terminal have been described in the foregoing embodiments, and specific reference may be made to the description of configuring the interactive interface of the controlled terminal in the foregoing embodiments, which is not described herein again. In this embodiment, the interactive interface of the controlled terminal 204 may be page configuration data other than the screen capture data, and the corresponding interactive interface of the controlled terminal 204 can be accurately configured and displayed.

In one embodiment, the obtaining, by the control center, the touch response interface of each controlled terminal includes: and acquiring touch program operation window data displayed after the corresponding controlled terminal responds to the touch operation data through the control center, processing the touch program operation window data to obtain touch response interface configuration data, and configuring a touch response interface according to the touch response interface configuration data.

Similarly, in this embodiment, the manner in which the control terminal 602 acquires the touch response interface of the controlled terminal 606 is different from the manner in which the control terminal acquires the touch response interface in the terminal control method described above in that: the control center 604 obtains program operation window data after the at least two controlled terminals respond to the received touch operation data, and specifically, based on the obtained program operation window data, the touch response interface configured for the controlled terminals has been described in detail in the foregoing embodiments, and specific reference may be made to the description of configuring the touch response interface of the controlled terminals in the foregoing embodiments, which is not described herein again. In this embodiment, the touch response interface of the controlled terminal 606 may be page configuration data other than the screen capture data, and the touch response interface of the corresponding controlled terminal can be accurately configured and displayed.

Similarly, in specific implementation, each split-screen area (split-screen interface) of the control terminal 602 correspondingly displays the interactive interface and the touch response interface of the controlled terminal 606. For example, there are 2 controlled terminals connected to the control terminal 602, which are the controlled terminal a and the controlled terminal B, respectively, and the control terminal also has 2 split screen interfaces, which are the split screen a and the split screen B, where the interactive interface a displayed on the split screen a is an interface obtained by rendering the initial interactive interface of the controlled terminal a, and the interface is matched with the size of the split screen area, and the interactive interface B displayed on the split screen B is an interface obtained by rendering the initial interactive interface of the controlled terminal B, and the interface is matched with the size of the split screen area. Specifically, the rendering action may be performed by the control center 604 or the control terminal 602. In the embodiment, the interface is rendered into the interface matched with the size of the split screen area, so that the interface data can be more reasonably displayed, and the use feeling of a user is improved.

It should be understood that, although the steps in the flowcharts of fig. 2, 4, 5, 7, and 9 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2, 4, 5, 7, and 9 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least some of the other steps.

In one embodiment, as shown in fig. 10, there is provided a terminal including: communication module 510, touch display module 520 and processor 530, wherein:

the communication module 510 is connected with at least two controlled terminals, the processor 530 obtains an interactive interface of each controlled terminal and performs display split-screen processing on each interactive interface to obtain split-screen display interface configuration data, the split-screen display interface configuration data is sent to the touch display module 520, the touch display module 520 receives the split-screen display interface configuration data, the interactive interface is displayed in a corresponding split-screen area, touch operation of a user on the interactive interface after split-screen display is received to obtain touch operation data, the touch operation data is sent to the processor 530, the processor 530 determines a corresponding controlled terminal according to the touch operation data and sends the touch operation data to the corresponding controlled terminal to obtain touch program operation window data of the corresponding controlled terminal, the touch program operation window data is processed to obtain touch response interface configuration data, And sends the touch response interface configuration data to the touch display module 520, and the touch display module 520 displays the touch response interface corresponding to the split screen area according to the touch response interface configuration data, wherein the touch response interface is obtained after performing touch response according to the touch operation data based on the controlled terminal.

In another embodiment, as shown in fig. 11, the communication module 510 includes a wireless communication interface 1616, and the touch display module 520 may be a touch display screen 1602. Specifically, referring to fig. 11, the wireless communication interface 1616 may be a 3G/4G/5G network or Wi-Fi antenna interface, the touch display screen 1602 may be an OLED (Organic Light-Emitting Diode) and glass (or sapphire) cover plate, and the processor may be equipped with a high-pass APQ8053 on a PCBA (Printed Circuit Board Assembly). In addition, the terminal includes a partition 1604, a battery 1608 (capacity 1000mAh, 1.0mm), a USB interface 1610(Type C), a stainless steel bezel 1612 and a back cover 1614, the back cover 1614 can be an OLED and glass (or sapphire) cover. Because components such as a microphone, a camera and the like are not designed, the conversation function can be realized through the Bluetooth headset, and the shooting can be realized through the wristwatch.

More specifically, the thickness of the terminal may be 4mm, the former period may use Wi-Fi and BT (Bit Torrent) communication interfaces for interaction, and the later period may use an autonomous protocol for interaction. 5-6 inch screen can be adopted for various extension (such as biological detection) hand board terminals of network mobile phones, network video screen terminals, game terminals and intelligent watches; for intelligent home terminals such as a home management board, a reading board, a game board, a WeChat board, a social contact board, an operation board and the like, a 7-14 inch screen can be adopted; for intelligent teaching, meeting, aviation and high-speed rail terminals such as a teaching board, a textbook board, a test board, a meeting board, an aviation board, a high-speed iron board, a one-way confidential information board and the like, a 7-14 inch screen can also be adopted; 5-105 inch screens can be adopted for intelligent surface terminals such as office table boards, projection display boards, meal ordering boards, bus station boards, household appliance boards, intelligent furniture boards, bar interactive boards, outdoor natural scene movie and television interactive boards, and concert competitive motion focusing boards.

The terminal can ensure good realization of touch and display functions, realizes functions of data processing, data storage and the like through the controlled terminal and/or the control center, and functionally separates touch and display from other functions. Because the functions of data processing, data storage and the like do not need to be realized, compared with the traditional terminal, the terminal can realize various complex functions by light weight, small volume and thin thickness, and the problems of large weight and volume and poor portability of the terminal in the traditional communication system are solved.

Furthermore, because the terminal uses an open communication platform, the terminal can directly communicate through the open platforms such as a wireless communication network or a cloud without depending on any mobile phone brand and obtaining permission of an operator, and the complex problem caused by the existing terminal brand and operator configuration threshold is avoided.

In one embodiment, as shown in fig. 12, there is provided a terminal control apparatus including: the touch screen display device comprises a first screen splitting display module 610, a touch operation data receiving module 620, a control module 630 and a second screen splitting display module 640, wherein:

and the first split-screen display module 610 is configured to acquire the interactive interfaces of at least two controlled terminals and perform split-screen display processing on each interactive interface.

And a touch operation data receiving module 620, configured to respond to a touch operation performed by the user on the interface after the split-screen display processing, and obtain touch operation data.

The control module 630 is configured to determine a corresponding controlled terminal according to the touch operation data, and send the touch operation data to the corresponding controlled terminal.

And the second split-screen display module 640 is configured to obtain a touch response interface of the corresponding controlled terminal, and display the touch response interface in the corresponding split-screen area, where the touch response interface is obtained after performing touch response according to the touch operation data based on the controlled terminal.

In one embodiment, as shown in fig. 13, the apparatus further includes a data connection module 650, configured to send a connection request to at least two controlled terminals, where the connection request carries identity authentication information, receive a connection permission message fed back by each controlled terminal according to the identity authentication information, and establish a connection with each controlled terminal.

In one embodiment, the first split-screen display module 610 is further configured to obtain the number of connected controlled terminals and the identification information of each controlled terminal, determine the number of split-screen areas according to the number of connected controlled terminals, divide the screen into split-screen areas corresponding to the number of split-screen areas, and display each interactive interface in each split-screen area according to the identification information of each controlled terminal.

In one embodiment, the touch operation data includes touch coordinates; the control module 630 is further configured to determine a split screen area touched by the user according to the touch coordinate, and determine a corresponding controlled terminal according to the split screen area.

In one embodiment, the apparatus further includes an interface configuration module 660, configured to obtain program running window data of at least two controlled terminals, process the program running window data to obtain multiple interactive interface configuration data, and configure a corresponding interactive interface according to the interactive interface configuration data.

In one embodiment, the configuration module 660 is further configured to obtain target program running window data displayed after the corresponding controlled terminal responds to the touch operation data, process the target program running window data to obtain touch response interface configuration data, and configure the touch response interface according to the touch response interface configuration data.

For specific limitations of the terminal control device, reference may be made to the above limitations of the terminal control method, which are not described herein again. The respective modules in the terminal control device described above may be implemented wholly or partially by software, hardware, and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, as shown in fig. 14, there is also provided a terminal control apparatus including: a first processing module 710, a touch operation data receiving module 720, a control module 730, and a second processing module 740, wherein:

the first processing module 710 is configured to obtain, through the control center, interactive interfaces of at least two controlled terminals, and perform split-screen display processing on each interactive interface.

And the touch operation response module 720 is configured to respond to a touch operation performed by the user on the interface after the split-screen display, so as to obtain touch operation data, where the touch operation data carries identity identification information of each controlled terminal.

And the data control module 730 is configured to send the touch operation data to a control center, and the control center is configured to control the corresponding controlled terminal to perform touch response according to the touch operation data.

The second processing module 740 is configured to obtain, through the control center, a touch response interface of the corresponding controlled terminal, and display the touch response interface in the corresponding split screen area, where the touch response interface is obtained after performing touch response according to the touch operation data based on the controlled terminal.

In one embodiment, as shown in fig. 15, the apparatus further includes a data connection module 750, configured to send a connection request to the control center, where the connection request carries identity authentication information, and receive a connection permission message forwarded by the control center, where the connection permission message is sent by the controlled terminal after completing identity authentication or pairing authentication according to the identity authentication information.

In one embodiment, the first processing module 710 is further configured to obtain, through the control center, the number of connected controlled terminals and the identification information of each controlled terminal, determine the number of split screen areas according to the number of connected controlled terminals, divide the screen into split screen areas corresponding to the number of split screen areas, and display each interactive interface in each split screen area according to the identification information of each controlled terminal.

In one embodiment, the touch operation data includes touch coordinates; the data control module 730 is further configured to determine a split screen area touched by the user according to the touch coordinate, determine a corresponding controlled terminal according to the split screen area, and record the identity information of the corresponding controlled terminal in the touch operation data.

In one embodiment, as shown in fig. 15, the apparatus further includes a page configuration module 760, configured to obtain program running window data of at least two controlled terminals through the control center, process the program running window data to obtain multiple interactive interface configuration data, and configure a corresponding interactive interface according to the interactive interface configuration data.

In one embodiment, the page configuration module 760 is further configured to acquire, by the control center, target program operating window data displayed after the corresponding controlled terminal responds to the touch operation data, process the target program operating window data to obtain touch response interface configuration data, and configure the touch response interface according to the touch response interface configuration data.

In one embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 16. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a terminal control method. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 16 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, which includes a memory and a processor, wherein the memory stores a computer program, and the processor implements the steps of the terminal control method when executing the computer program.

In one embodiment, a computer-readable storage medium is provided, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the above-mentioned terminal control method.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A terminal control method, the method comprising:

2. The method according to claim 1, wherein before acquiring the interactive interfaces of the at least two controlled terminals, the method further comprises:

and receiving a connection permission message fed back by each controlled terminal according to the identity authentication information, and establishing connection with each controlled terminal.

3. The method of claim 2, wherein performing a split-screen display process on each interactive interface comprises:

determining the number of split screen areas according to the number of the connected controlled terminals;

dividing the screen into screen division areas corresponding to the screen division areas in number;

4. The method according to any one of claims 1 to 3, wherein the touch operation data comprises touch coordinates;

the determining the corresponding controlled terminal according to the touch operation data includes:

determining a split screen area touched by the user according to the touch coordinate;

5. The method according to any one of claims 1 to 3, wherein the acquiring the interactive interfaces of the at least two controlled terminals comprises:

acquiring program operation window data of at least two controlled terminals;

processing the program operation window data to obtain a plurality of interactive interface configuration data;

6. The method according to any one of claims 1 to 3, wherein the acquiring the touch response interface of the corresponding controlled terminal comprises:

acquiring target program running window data displayed after the corresponding controlled terminal responds to the touch operation data;

7. The method of any one of claims 1 to 3, wherein the displayed interactive interface and the displayed touch response interface match the size of the corresponding split screen area.

8. A terminal control method comprises the following steps:

sending the touch operation data to the control center, wherein the control center is used for controlling a corresponding controlled terminal to perform touch response according to the touch operation data;

and acquiring a touch response interface of a corresponding controlled terminal through the control center, and displaying the touch response interface corresponding to the split screen area, wherein the touch response interface is obtained after touch response is performed on the basis of the controlled terminal according to the touch operation data.

9. The method according to claim 8, wherein before the obtaining of the interactive interfaces of the at least two controlled terminals through the control center, the method further comprises:

sending a connection request to the control center, wherein the connection request carries identity authentication information;

and receiving a connection permission message forwarded by the control center, wherein the connection permission message is sent by the controlled terminal after finishing identity authentication or pairing authentication according to the identity authentication information.

10. The method of claim 9, wherein performing a split-screen display process on each interactive interface comprises:

acquiring the number of the connected controlled terminals and the identity information of each controlled terminal through the control center;

the split-screen display processing of each interactive interface comprises the following steps:

11. The method according to any one of claims 8 to 10, wherein the obtaining, by the control center, the interactive interfaces of the at least two controlled terminals comprises:

acquiring program operation window data of at least two controlled terminals through the control center;

12. The method according to any one of claims 8 to 10, wherein the obtaining, by the control center, the touch response interface of each controlled terminal includes:

13. The method of any one of claims 8 to 10, wherein the displayed interactive interface and the displayed touch responsive interface match the size of the corresponding split screen area.

14. A terminal control apparatus, characterized in that the apparatus comprises:

the first split screen display module is used for acquiring interactive interfaces of at least two controlled terminals and performing split screen display processing on each interactive interface;

and the second split screen display module is used for acquiring a touch response interface of the corresponding controlled terminal and displaying the touch response interface in the corresponding split screen area, wherein the touch response interface is obtained after touch response is carried out on the basis of the controlled terminal according to the touch operation data.

15. A terminal control apparatus, characterized in that the apparatus comprises:

the first split screen display module is used for acquiring interactive interfaces of at least two controlled terminals through the control center and performing split screen display processing on each interactive interface, and the control center has access operation permission of each controlled terminal;

the touch operation data receiving module is used for responding to the touch operation of a user on the interface after split screen display to obtain touch operation data, and the touch operation data carries the identity identification information of each controlled terminal;

the control module is used for sending the touch operation data to the control center, and the control center is used for controlling a corresponding controlled terminal to perform touch response according to the touch operation data;

and the second screen splitting display module is used for acquiring a touch response interface of the corresponding controlled terminal through the control center and displaying the touch response interface corresponding to the screen splitting area, wherein the touch response interface is obtained after touch response is carried out on the basis of the controlled terminal according to the touch operation data.

16. A terminal, comprising: the touch display device comprises a communication module, a touch display module and a processor;

the communication module is connected with at least two controlled terminals, the processor acquires an interactive interface of each controlled terminal and performs display split-screen processing on each interactive interface to obtain split-screen display interface configuration data, the split-screen display interface configuration data are sent to the touch display module, the touch display module receives the split-screen display interface configuration data, displays an interactive interface in a corresponding split-screen area, receives touch operation of a user on the interactive interface displayed in a split-screen mode to obtain touch operation data, and sends the touch operation data to the processor, the processor determines the corresponding controlled terminal according to the touch operation data, sends the touch operation data to the corresponding controlled terminal, acquires touch program operation window data of the corresponding controlled terminal, and processes the touch program operation window data, and obtaining touch response interface configuration data and sending the touch response interface configuration data to the touch display module, wherein the touch display module displays a touch response interface corresponding to a split screen area according to the touch response interface configuration data, and the touch response interface is obtained after touch response is carried out on the basis of the controlled terminal according to the touch operation data.

17. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the steps of the method of any of claims 1 to 13 are implemented when the computer program is executed by the processor.

18. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 13.